REFRIGERATION APPLIANCE WITH A WATER DISPENSER

Abstract

A refrigeration appliance comprises at least one water reservoir and a piping system connecting the water reservoir to a water dispenser and means for maintaining the water reservoir at a predetermined temperature. The piping system is designed for allowing a recirculation of water from and to the water reservoir in order to assure that the water delivered by the dispenser is at the correct temperature.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

This object is achieved thanks to the features listed in the appended claims. Other features, aspects and advantages of the present invention will become more apparent from the following detailed description with reference to the accompanying drawings in which:

FIG. 1 is a front view of a side by side refrigerator with a water dispenser;

FIG. 2 is a schematic view of the cold-water dispensing system of a refrigerator according to prior art;

FIG. 3 is a schematic view of the cold or hot water dispensing system of a refrigerator according to a first embodiment of the invention;

FIG. 4 is a schematic view of the cold and hot water dispensing system of a refrigerator according to a second embodiment of the invention; and

FIG. 5 is a schematic view of a water dispensing system according to a third embodiment of the invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

With reference to FIGS. 1 and 2, a side by side refrigerator R presents a door D of the freezing chamber. In the door D a water and ice dispenser W is provided, which is fed by a water tap 1 through a filter F and through a water reservoir 5 which, in the example shown in FIG. 2, is contained in the cooling compartment at a predetermined cold temperature. Between the filter F and the water reservoir 5 there is provided a T-branch K composed by 2 electrovalves K1 and K2 respectively, for delivering water also to an icemaker M contained in the freezing chamber.

During a normal operation mode in a refrigerator according to prior art (FIG. 2), filtered inlet water from tap 1 goes to the reservoir 5. From this latter a pipe goes through the door D and to the water dispenser W. Since the length of such pipe is not neglectable, the volume contained therein has a temperature which may be not the same of the water contained in the reservoir 5.

According to a first embodiment of the present invention shown in FIG. 3, the water circuit comprises a pipe 2 which goes through the door and then to the dispenser area through an electrovalve 6. When the paddle on the dispenser is released, the electrovalve 6 remains closed and water flow stops.

Whenever is needed, either after every dispensing, or after a predetermined fixed time, the electronic control which is provided with a predetermined simple algorithm opens an electrovalve 4 and switches on a pump 10 mounted on an auxiliary recirculation pipe 9. In this case the water flows through the path 2-4-9-5 and back to the reservoir. The electronic control runs this cycle automatically at selected time sequence to maintain the water into the pipe always at the correct temperature substantially identical to the temperature of water in the water reservoir 5. As an alternative, the pump 10 and the electrovalve 4 can be switched on only when the user acts on the paddle of the water dispenser W. In this case the electronic control waits few second before opening the electrovalve 6 so that the recirculation along the auxiliary pipe 9 can bring the temperature of water to the same level of the temperature of water inside the water reservoir 5.

This system solves the problem of water not at the desired level (hot or cold) at first dispensing and also prevent a too long permanence of water inside the piping, which could cause health and safety problems.

With reference to FIG. 4, a second embodiment provides the same benefit to a refrigerator that has hot & cold water to be dispensed on the same dispenser W.

During normal operation mode, filtered inlet water line 1 is connected to both line 11 and line 12, and to the hot & cold reservoirs respectively 5a and 5b.

When the paddle for hot water is pushed, hot water goes from the hot reservoir 5a through the open electrovalve EV3 located in the base zone of the refrigerator and then, by means of the water line 2 which is inside the foam door, water is delivered to the dispenser W by an open electrovalve EV1.

When the paddle on the dispenser W is released, the electrovalve EV1 remains closed and the electronic control which is provided with a predetermined algorithm opens the electrovalve EV2 so the water flows through the auxiliary line 9, and switches on the pump 10. The water flows then through the line 15 and the circuit opens an electrovalve EV5 located in the base zone of the refrigerator, so that water returns to the hot water reservoir 5a.

In this case the water flows is recirculated back to the reservoir 5a. The electronic control runs this cycle automatically at selected time sequence to maintain the water into the pipe always at the correct temperature, or, as in the first embodiment, it can run the recirculation only when the user pushes the paddle for dispensing hot water.

When the paddle for the cold water is pushed, cold water goes from the cold reservoir 5b through the open electrovalve EV4, and then by the water line 2 to the dispenser W by the open electrovalve EV1.

When the paddle on the dispenser W is released, the electrovalve EV1 remains closed and the electronic control opens the electrovalve EV2 so that the water is recirculated through auxiliary line 9 and by means of the pump 10, through an open electrovalve EV6 to the cold water reservoir 5b.

Also in this case the water flows back to the reservoir and the electronic control runs this cycle automatically at selected time sequence to maintain the water into the pipe always at the correct temperature.

With reference to FIG. 5, a third embodiment is focused also on fast water cooling. In FIG. 5 the components which are similar to those of FIG. 4 have the same reference numerals. During normal operation mode the refrigerator evaporator is cold and the cold water reservoir takes time to cool down in order to provide cold water at desired temperature, because cold is provided by force air circulation.

According to such third embodiment, a water pipe 16, with a portion 17 thereof in contact with the evaporator—not shown—(banded around, attached similarly to the electrical wire of the defrost heater), is connected to the water pump 10 by an electrovalve EV8 and on the other side to the line 15. An electrovalve EV7 closes the auxiliary line 10—EV7—15 when the water goes through the evaporator line.

Fast cooling feature is provided by keeping close the valve EV7, running the water pump 10 and opening the valve EV8, so that the water flows through the water pipe 17 in contact with the evaporator and goes back to the cold reservoir 5b. This technical solution allows faster water cooling inside the reservoir 5b.

This embodiment may also be used for a fast evaporator defrost. During normal operation mode the refrigerator evaporator is cold and when it is time to defrost it, the operation requires a long time and high heater power.

The circuit of FIG. 5 reduces dramatically the defrost time by sending hot water contained into reservoir 5a through the line 16 to the water pipe 17, which is in contact with the evaporator, by running the water pump 10 and by opening an electrovalve EV8. In this case the electrovalve EV7 is closed too.

An electronic control manages those features accordingly to consumer water dispensing needs, and refrigerator operation mode.

Check or one-way valves to reduce cost and complexity of the system can replace some electrovalves. Moreover the present invention is independent on the system used for heating the water in the hot water reservoir 5a.

Instead of using two paddles for hot and cold water dispensing respectively, one paddle only can be used as well in combination with a device (for instance a button) for selecting hot or cold water.

Claims

1. A refrigeration appliance comprising: a water reservoir,

2. The refrigeration appliance according to claim 1, wherein the piping system includes a pump.

3. The refrigeration appliance according to claim 2, in which the water dispenser further comprises a valve for dispensing water on demand by the user, wherein the piping system further comprises a second valve which is connected to a central process unit for opening such valve and for switching on the pump at a predetermined time.

4. The refrigeration appliance according to claim 1, wherein that it comprises a second water reservoir, the first and second reservoirs containing water at different temperatures.

5. The refrigeration appliance according to claim 4, wherein the piping system further comprises a pipe connected to both reservoirs, by a valve which recirculates water alternatively to one or the other reservoir.

6. The refrigeration appliance according to claim 2, wherein the piping system further comprises a branch in heat exchange relationship with an evaporator of the appliance in order to carry out a fast cooling of the recirculating water.

7. The refrigerator according to claim 5, wherein that in the branch of the piping system hot water may be recirculated in order to carry out a quick defrost of the evaporator.